How Monarchs Fly Away Home

A rather curious revelation here. The Monarch butterfly migrates from Mexico into the Midwest and the Great Lakes Region. There they propagate and a second generation migrates to the other side of the Appalachians. More likely they migrate in all directions as possible, but mostly with the prevailing winds which carries the new stock into the East Coast.

This process saturates their range and uses the entire milkweed crop.

The milkweed is an unusual plant that is very successful because of its unusual pollination strategy in which it forces an insect to take pollen or lose its leg. The seeds disperse with an aerial parachute or fluff.

Mankind is still experimenting with milkweed because it has obvious attributes. The seed is separable from the fiber and the fiber was used in the second war as a water proof packing for life jackets and was known as kapok. Breeding could produce a large seed that could be of value.

Thus a domesticated milkweed would be a larger, highly productive fiber plant that would compare to cotton. The stems could be crushed and pressed for the latex content and the remaining material may also have commercial value.

The monarch in particular is specific to this plant. The flowers provide nectar and the larvae feed from the leaves. No plant fails to have its crop of monarchs.

Monarch butterflies - renowned for their lengthy annual migration to and from Mexico - complete an even more spectacular journey home than previously thought.

New research from the University of Guelph reveals that some North American monarchs born in the Midwest and Great Lakes fly directly east over the Appalachians and settle along the eastern seaboard. Previously, scientists believed that the majority of monarchs migrated north directly from the Gulf coast.

The study appears in the recent issue of the scientific journal Biology Letters.

"It's a groundbreaking finding," said Ryan Norris, a Guelph professor in the Department of Integrative Biology who worked on the study with his graduate student Nathan Miller and two researchers from Environment Canada.

"It solves the long-standing mystery of why monarchs always show up later on the east coast compared to the interior," he said.

"Importantly, it means that the viability of east coast populations is highly dependent upon productivity on the other side of the mountains."

Monarchs travel thousands of kilometres each year from wintering sites in central Mexico back to North America's eastern coast, a journey that requires multiple generations produced at various breeding regions.

Biologists had suspected that monarchs fly back from Mexico west-to-east over the Appalachians but no evidence existed to support the theory.

"Ours is the first proof of longitudinal migration," Miller said.

For the study, the researchers collected 90 monarch samples from 17 sites between Maine and Virginia in June and July of 2009. They also collected 180 samples of milkweed (the only plant monarch larvae can eat) from 36 sites along the eastern coast between May and July of that year.

They then used hydrogen and carbon isotope measurements to determine when and where the monarchs were born. Isotope values in milkweed vary longitudinally and can be measured in monarch wings, Miller said.

"It provides a natal, geospatial fingerprint that is fixed for the duration of the butterfly's lifespan."

The researchers discovered that 88 per cent of the monarchs sampled originated in the midwest and Great Lakes regions.

"This means that the recolonization of the east coast is by second-generation monarchs that hatched around the Great Lakes and then migrated eastward over the Appalachians," Miller said.

The monarch butterfly has been listed as a species of "special concern" in Canada since 1997. Past conservation efforts have often focused on breeding sites along a northward migration route.

"Our results suggest that this needs to change," Miller said. "We must target the Great Lakes region to conserve the east coast monarch populations."